Dynamic CpG methylation delineates subregions within super-enhancers selectively decommissioned at the exit from naive pluripotency

Emma Bell; Edward W. Curry; Wout Megchelenbrink; Luc Jouneau; Vincent Brochard; Rute A. Tomaz; King Hang T. Mau; Yaser Atlasi; Roshni A. de Souza; Hendrik Marks; Hendrik G. Stunnenberg; Alice Jouneau; Véronique Azuara

doi:10.1038/s41467-020-14916-7

Dynamic CpG methylation delineates subregions within super-enhancers selectively decommissioned at the exit from naive pluripotency

Emma Bell, Edward W. Curry, Wout Megchelenbrink, Luc Jouneau, Vincent Brochard, Rute A. Tomaz, King Hang T. Mau, Yaser Atlasi, Roshni A. de Souza, Hendrik Marks, Hendrik G. Stunnenberg, Alice Jouneau, Véronique Azuara

Group Stunnenberg

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

Clusters of enhancers, referred as to super-enhancers (SEs), control the expression of cell identity genes. The organisation of these clusters, and how they are remodelled upon developmental transitions remain poorly understood. Here, we report the existence of two types of enhancer units within SEs typified by distinctive CpG methylation dynamics in embryonic stem cells (ESCs). We find that these units are either prone for decommissioning or remain constitutively active in epiblast stem cells (EpiSCs), as further established in the peri-implantation epiblast in vivo. Mechanistically, we show a pivotal role for ESRRB in regulating the activity of ESC-specific enhancer units and propose that the developmentally regulated silencing of ESRRB triggers the selective inactivation of these units within SEs. Our study provides insights into the molecular events that follow the loss of ESRRB binding, and offers a mechanism by which the naive pluripotency transcriptional programme can be partially reset upon embryo implantation.

Original language	English
Article number	1112
Journal	Nature Communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-14916-7
Publication status	Published - 1 Dec 2020

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Bell, E., Curry, E. W., Megchelenbrink, W., Jouneau, L., Brochard, V., Tomaz, R. A., Mau, K. H. T., Atlasi, Y., de Souza, R. A., Marks, H., Stunnenberg, H. G., Jouneau, A., & Azuara, V. (2020). Dynamic CpG methylation delineates subregions within super-enhancers selectively decommissioned at the exit from naive pluripotency. Nature Communications, 11(1), Article 1112. https://doi.org/10.1038/s41467-020-14916-7

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title = "Dynamic CpG methylation delineates subregions within super-enhancers selectively decommissioned at the exit from naive pluripotency",

abstract = "Clusters of enhancers, referred as to super-enhancers (SEs), control the expression of cell identity genes. The organisation of these clusters, and how they are remodelled upon developmental transitions remain poorly understood. Here, we report the existence of two types of enhancer units within SEs typified by distinctive CpG methylation dynamics in embryonic stem cells (ESCs). We find that these units are either prone for decommissioning or remain constitutively active in epiblast stem cells (EpiSCs), as further established in the peri-implantation epiblast in vivo. Mechanistically, we show a pivotal role for ESRRB in regulating the activity of ESC-specific enhancer units and propose that the developmentally regulated silencing of ESRRB triggers the selective inactivation of these units within SEs. Our study provides insights into the molecular events that follow the loss of ESRRB binding, and offers a mechanism by which the naive pluripotency transcriptional programme can be partially reset upon embryo implantation.",

author = "Emma Bell and Curry, {Edward W.} and Wout Megchelenbrink and Luc Jouneau and Vincent Brochard and Tomaz, {Rute A.} and Mau, {King Hang T.} and Yaser Atlasi and {de Souza}, {Roshni A.} and Hendrik Marks and Stunnenberg, {Hendrik G.} and Alice Jouneau and V{\'e}ronique Azuara",

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Bell, E, Curry, EW, Megchelenbrink, W, Jouneau, L, Brochard, V, Tomaz, RA, Mau, KHT, Atlasi, Y, de Souza, RA, Marks, H, Stunnenberg, HG, Jouneau, A & Azuara, V 2020, 'Dynamic CpG methylation delineates subregions within super-enhancers selectively decommissioned at the exit from naive pluripotency', Nature Communications, vol. 11, no. 1, 1112. https://doi.org/10.1038/s41467-020-14916-7

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T1 - Dynamic CpG methylation delineates subregions within super-enhancers selectively decommissioned at the exit from naive pluripotency

AU - Bell, Emma

AU - Curry, Edward W.

AU - Megchelenbrink, Wout

AU - Jouneau, Luc

AU - Brochard, Vincent

AU - Tomaz, Rute A.

AU - Mau, King Hang T.

AU - Atlasi, Yaser

AU - de Souza, Roshni A.

AU - Marks, Hendrik

AU - Stunnenberg, Hendrik G.

AU - Jouneau, Alice

AU - Azuara, Véronique

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Clusters of enhancers, referred as to super-enhancers (SEs), control the expression of cell identity genes. The organisation of these clusters, and how they are remodelled upon developmental transitions remain poorly understood. Here, we report the existence of two types of enhancer units within SEs typified by distinctive CpG methylation dynamics in embryonic stem cells (ESCs). We find that these units are either prone for decommissioning or remain constitutively active in epiblast stem cells (EpiSCs), as further established in the peri-implantation epiblast in vivo. Mechanistically, we show a pivotal role for ESRRB in regulating the activity of ESC-specific enhancer units and propose that the developmentally regulated silencing of ESRRB triggers the selective inactivation of these units within SEs. Our study provides insights into the molecular events that follow the loss of ESRRB binding, and offers a mechanism by which the naive pluripotency transcriptional programme can be partially reset upon embryo implantation.

AB - Clusters of enhancers, referred as to super-enhancers (SEs), control the expression of cell identity genes. The organisation of these clusters, and how they are remodelled upon developmental transitions remain poorly understood. Here, we report the existence of two types of enhancer units within SEs typified by distinctive CpG methylation dynamics in embryonic stem cells (ESCs). We find that these units are either prone for decommissioning or remain constitutively active in epiblast stem cells (EpiSCs), as further established in the peri-implantation epiblast in vivo. Mechanistically, we show a pivotal role for ESRRB in regulating the activity of ESC-specific enhancer units and propose that the developmentally regulated silencing of ESRRB triggers the selective inactivation of these units within SEs. Our study provides insights into the molecular events that follow the loss of ESRRB binding, and offers a mechanism by which the naive pluripotency transcriptional programme can be partially reset upon embryo implantation.

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Dynamic CpG methylation delineates subregions within super-enhancers selectively decommissioned at the exit from naive pluripotency

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